A diver, in making several turns in the air, grabs his knees to achieve a high rate of rotation, and a skater does much the same thing when she goes into a spin with arms and legs extended but brings them in close to her body for the extremely rapid part of this motion. This module considers the physics describing these motions, and those of other rotational systems -- starting or stopping a record turntable (or a washing-machine tub), unwinding of winch cord as a bucket is dropped into a well, etc
Notions of moment of inertia, rotational motion of a body, and conservation of angular momentumA spi...
Using the ”somersault simulator” we have studied the influence of rotational movements for the vesti...
The following thesis applies equations of motion used in linear locomotion (gait analysis) to the an...
A diver, in making several turns in the air, grabs his knees to achieve a high rate of rotation, and...
There is a motion of a system of masses that is as simple as the motion of a point mass on a straigh...
An alternative approach to the stability of torque-free rotations and to top nutation that emphasize...
This series of four papers comprises a theoretical investigation into twisting somersaults. Both sim...
Enough of this physics where things move along straight lines only! We know that most interesting re...
Perhaps at some time you have had occasion to swing a massive object at the end of a rope. Maybe you...
Twisting movements are categorised into three mechanical types, named as DIRECT, COUNTER-ROTATION an...
INTRODUCION - Air-borne human rotational movements represent a complicated problem of theoretical me...
A theoretical study was made of the angular motions of spinning bodies in space. The analysis was ba...
Concepts and mathematical instruments used in elementary mechanics are often perceived as abstract e...
The purpose of this study was to investigate the effects of the magnitude of the twisting torque for...
A method is presented for determining the angular momentum of the human body about its mass centre f...
Notions of moment of inertia, rotational motion of a body, and conservation of angular momentumA spi...
Using the ”somersault simulator” we have studied the influence of rotational movements for the vesti...
The following thesis applies equations of motion used in linear locomotion (gait analysis) to the an...
A diver, in making several turns in the air, grabs his knees to achieve a high rate of rotation, and...
There is a motion of a system of masses that is as simple as the motion of a point mass on a straigh...
An alternative approach to the stability of torque-free rotations and to top nutation that emphasize...
This series of four papers comprises a theoretical investigation into twisting somersaults. Both sim...
Enough of this physics where things move along straight lines only! We know that most interesting re...
Perhaps at some time you have had occasion to swing a massive object at the end of a rope. Maybe you...
Twisting movements are categorised into three mechanical types, named as DIRECT, COUNTER-ROTATION an...
INTRODUCION - Air-borne human rotational movements represent a complicated problem of theoretical me...
A theoretical study was made of the angular motions of spinning bodies in space. The analysis was ba...
Concepts and mathematical instruments used in elementary mechanics are often perceived as abstract e...
The purpose of this study was to investigate the effects of the magnitude of the twisting torque for...
A method is presented for determining the angular momentum of the human body about its mass centre f...
Notions of moment of inertia, rotational motion of a body, and conservation of angular momentumA spi...
Using the ”somersault simulator” we have studied the influence of rotational movements for the vesti...
The following thesis applies equations of motion used in linear locomotion (gait analysis) to the an...